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Original scientific paper

https://doi.org/10.5552/crojfe.2024.2179

Effects of Boom-Tip Control and a Rotating Cabin on Loading Efficiency of a Forwarder: A Pilot Study

Florian Hartsch ; University of Göttingen Faculty of Forest Sciences and Forest Ecology Department of Forest Work Science and Engineering Büsgenweg 4 37077 Göttingen GERMANY *
Marian Schönauer ; University of Göttingen Faculty of Forest Sciences and Forest Ecology Department of Forest Work Science and Engineering Büsgenweg 4 37077 Göttingen GERMANY
Christopher Pohle ; University of Göttingen Faculty of Forest Sciences and Forest Ecology Department of Forest Work Science and Engineering Büsgenweg 4 37077 Göttingen GERMANY
Lorenz Breinig ; University of Göttingen Faculty of Forest Sciences and Forest Ecology Department of Forest Work Science and Engineering Büsgenweg 4 37077 Göttingen GERMANY
Thilo Wagner ; State Enterprise for Forestry and Timber Northrhine-Westfalia Center for Forest and Timber Industry Team Forest Education Center Alter Holzweg 93 59755 Arnsberg GERMANY
Dirk Jaeger ; University of Göttingen Faculty of Forest Sciences and Forest Ecology Department of Forest Work Science and Engineering Büsgenweg 4 37077 Göttingen GERMANY

* Corresponding author.


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Abstract

Climate change and associated heat waves and droughts are causing enormous amounts of damaged wood in Central Europe. To face these challenges, mechanized timber harvesting systems consisting of single-grip-harvesters and forwarders are commonly employed due to their high productivity and work safety. Despite the advantages of these work systems, the operation of advanced forestry machines requires lengthy training and entails high levels of mental strain for machine operators. In recent years, operator assistance systems have been installed in forest machines with the intention of reducing mental workload of machine operators, thereby improving productivity. However, knowledge of the actual effect of operator assistance systems on productivity is still lacking.
The present case study surveyed the effect of two recently released operator assitance features, Intelligent Boom Control (»IBC«) and a rotating cabin (»RC«), on productivity during loading cycles, by means of a time study. Therefore, IBC and RC were tested in different loading settings using a forwarder, John Deere 1210G. Three loading angles were tested (55°, 90° and 125° azimuthal and counterclockwise to the machine axis) in combination with five loading distances (4 m, 5.5 m, 7 m, 8.5 m, and 10 m distance from the crane pillar). The 15 loading positions were sampled using four variants (I: IBC off RC off, II: RC on IBC off, III: IBC on RC off, IV: IBC on RC on), capturing 10 replications for each position and variant, resulting in 600 loading cycles in total.
When the operator was not supported by any system, mean time consumption per loading cycle amounted to 20.6 ± 0.114 sec. The utilization of IBC resulted in a significant reduction in time consumption of 2 seconds per loading cycle. Moreover, further time savings were observed when IBC was engaged in combination with a rotating cabin, leading to a mean time consumption of 17.8 ± 0.114 sec (or 14% improvement) per loading cycle. Although the lowest time consumption was observed when IBC and RC were engaged, the use of RC alone did not show any significant time improvements.
Since loading activities occupy approximately 50% of the total cycle time in timber forwarding, potential time savings within this work element are crucial for further improvements of work productivity. This pilot case study quantified the time savings when IBC and RC were engaged during loading in an experimental setting. The results can be used as a basis for further investigations dealing with factors influencing the productivity of highly mechanized timber harvesting systems.

Keywords

Forest work science, time study, mechanized harvesting, cut-to-length, forest operations, forwarding

Hrčak ID:

311927

URI

https://hrcak.srce.hr/311927

Publication date:

12.1.2024.

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